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koffice/kpresenter/KPrPicturePreview.cpp

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// -*- Mode: c++; c-basic-offset: 4; indent-tabs-mode: nil; tab-width: 4; -*-
/* This file is part of the KDE project
Copyright (C) 2005 Thorsten Zachmann <zachmann@kde.org>
The code is based on work of
Copyright (C) 2002 Toshitaka Fujioka <fujioka@kde.org>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*/
#include "KPrPicturePreview.h"
#include <tqimage.h>
#include <tqpainter.h>
KPrPicturePreview::KPrPicturePreview( TQWidget* parent, const char* name)
: TQFrame( parent, name )
, mirrorType( PM_NORMAL )
, depth( 0 )
, swapRGB( false )
, bright( 0 )
, grayscal( false )
{
setFrameStyle( WinPanel | Sunken );
setMinimumSize( 300, 200 );
}
void KPrPicturePreview::drawContents( TQPainter *painter )
{
TQSize ext = contentsRect().size();
TQPixmap _pix = origPixmap;
TQImage img( _pix.convertToImage().smoothScale( ext.width(),ext.height(), TQ_ScaleMin ) );
bool _horizontal = false;
bool _vertical = false;
if ( mirrorType == PM_HORIZONTAL )
_horizontal = true;
else if ( mirrorType == PM_VERTICAL )
_vertical = true;
else if ( mirrorType == PM_HORIZONTALANDVERTICAL ) {
_horizontal = true;
_vertical = true;
}
img = img.mirror( _horizontal, _vertical );
if ( depth != 0 ) {
TQImage tmpImg = img.convertDepth( depth );
if ( !tmpImg.isNull() )
img = tmpImg;
}
if ( swapRGB )
img = img.swapRGB();
if ( grayscal ) {
if ( depth == 1 || depth == 8 ) {
for ( int i = 0; i < img.numColors(); ++i ) {
TQRgb rgb = img.color( i );
int gray = tqGray( rgb );
rgb = tqRgb( gray, gray, gray );
img.setColor( i, rgb );
}
}
else {
int _width = img.width();
int _height = img.height();
int _x = 0;
int _y = 0;
for ( _x = 0; _x < _width; ++_x ) {
for ( _y = 0; _y < _height; ++_y ) {
if ( img.valid( _x, _y ) ) {
TQRgb rgb = img.pixel( _x, _y );
int gray = tqGray( rgb );
rgb = tqRgb( gray, gray, gray );
img.setPixel( _x, _y, rgb );
}
}
}
}
}
if ( bright != 0 ) {
if ( depth == 1 || depth == 8 ) {
for ( int i = 0; i < img.numColors(); ++i ) {
TQRgb rgb = img.color( i );
TQColor c( rgb );
if ( bright > 0 )
rgb = c.light( 100 + bright ).rgb();
else
rgb = c.dark( 100 + abs( bright ) ).rgb();
img.setColor( i, rgb );
}
}
else {
int _width = img.width();
int _height = img.height();
int _x = 0;
int _y = 0;
for ( _x = 0; _x < _width; ++_x ) {
for ( _y = 0; _y < _height; ++_y ) {
if ( img.valid( _x, _y ) ) {
TQRgb rgb = img.pixel( _x, _y );
TQColor c( rgb );
if ( bright > 0 )
rgb = c.light( 100 + bright ).rgb();
else
rgb = c.dark( 100 + abs( bright ) ).rgb();
img.setPixel( _x, _y, rgb );
}
}
}
}
}
_pix.convertFromImage( img );
TQPixmap tmpPix( _pix.size() );
tmpPix.fill( TQt::white );
TQPainter _p;
_p.begin( &tmpPix );
_p.drawPixmap( 0, 0, _pix );
_p.end();
TQSize _pixSize = _pix.size();
int _x = 0, _y = 0;
int w = _pixSize.width(), h = _pixSize.height();
_x = ( ext.width() - w ) / 2;
_y = ( ext.height() - h ) / 2;
painter->drawPixmap( _x, _y, tmpPix );
}
void KPrPicturePreview::slotNormalPicture()
{
if ( mirrorType != PM_NORMAL )
{
mirrorType = PM_NORMAL;
tqrepaint( false );
}
}
void KPrPicturePreview::slotHorizontalMirrorPicture()
{
if ( mirrorType != PM_HORIZONTAL )
{
mirrorType = PM_HORIZONTAL;
tqrepaint( false );
}
}
void KPrPicturePreview::slotVerticalMirrorPicture()
{
if ( mirrorType != PM_VERTICAL )
{
mirrorType = PM_VERTICAL;
tqrepaint( false );
}
}
void KPrPicturePreview::slotHorizontalAndVerticalMirrorPicture()
{
if ( mirrorType != PM_HORIZONTALANDVERTICAL )
{
mirrorType = PM_HORIZONTALANDVERTICAL;
tqrepaint( false );
}
}
void KPrPicturePreview::slotPictureDepth0()
{
if ( depth !=0 )
{
depth = 0;
tqrepaint( false );
}
}
void KPrPicturePreview::slotPictureDepth1()
{
if ( depth != 1 )
{
depth = 1;
tqrepaint( false );
}
}
void KPrPicturePreview::slotPictureDepth8()
{
if ( depth != 8)
{
depth = 8;
tqrepaint( false );
}
}
void KPrPicturePreview::slotPictureDepth16()
{
if ( depth != 16 )
{
depth = 16;
tqrepaint( false );
}
}
void KPrPicturePreview::slotPictureDepth32()
{
if ( depth !=32 )
{
depth = 32;
tqrepaint( false );
}
}
void KPrPicturePreview::slotSwapRGBPicture( bool _on )
{
if ( swapRGB != _on )
{
swapRGB = _on;
tqrepaint( false );
}
}
void KPrPicturePreview::slotGrayscalPicture( bool _on )
{
if ( grayscal != _on )
{
grayscal = _on;
tqrepaint( false );
}
}
void KPrPicturePreview::slotBrightValue( int _value )
{
if ( bright != _value )
{
bright = _value;
tqrepaint( false );
}
}
void KPrPicturePreview::setDepth( int _depth)
{
if ( _depth != depth )
{
depth = _depth;
tqrepaint( false );
}
}
void KPrPicturePreview::setMirrorType (PictureMirrorType _t)
{
if ( mirrorType != _t )
{
mirrorType = _t;
tqrepaint( false );
}
}
void KPrPicturePreview::setPicturePixmap(const TQPixmap &_pixmap)
{
origPixmap = _pixmap;
tqrepaint( false );
}
#include "KPrPicturePreview.moc"